Muehlig
Christian Muehlig, Jena DE
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20100001208 | METHOD FOR QUANTITATIVE DETERMINATION OF THE SUITABILITY OF CRYSTALS FOR OPTICAL COMPONENTS EXPOSED TO HIGH ENERGY DENSITIES, CRYSTALS GRADED IN THIS WAY AND USES THEREOF - A method is described for quantitative determination of suitability of an optical material, especially alkali halide and alkaline earth halide single crystals, for optical components exposed to high energy densities, especially of pulsed laser light at wavelengths under 250 nm. In this procedure radiation-dependent transmission of the optical material is determined at ultraviolet wavelengths by fluorescence measurements for fluorescence induced by ultraviolet radiation at these ultraviolet wavelengths. This is accomplished by a method including determining an induced fluorescence maximum of a non-linear absorption process, measuring a slope (|dT/dH|) of a functional relationship representing the dependence of the radiation-dependent transmission on fluence (H) for the induced fluorescence and determining radiation-dependent transmissions from this slope for particular fluence values. | 01-07-2010 |
Manuel Muehlig, Gera DE
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20100222924 | ROBOT WITH AUTOMATIC SELECTION OF TASK-SPECIFIC REPRESENTATIONS FOR IMITATION LEARNING - The invention proposes a method for imitation-learning of movements of a robot, wherein the robot performs the following steps: | 09-02-2010 |
Peter Muehlig, Jena DE
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20130139749 | DEVICE AND METHOD FOR MONITORING CRYSTALLIZATION - A method for crystallizing a substance dissolved in a solvent, including the following steps: introducing a solvent volume containing the substance into a chamber having a preset temperature, humidity, and gas composition, adding a predetermined volume of a precipitant to the solvent volume containing the substance, allowing the solvent to evaporate while simultaneously observing structural changes in the solvent volume containing the substance and the precipitant by means of dynamic light scattering, detecting weight changes and determining the molarities, making an association with the location in the phase diagram on the basis of the DLS measurement and the results of the molarity determination, allowing a predetermined number of crystal nuclei to form by adding solvent or adding precipitant, putting the solvent volume containing the substance and the precipitant into a metastable state by adding solvent and/or protein solution or by allowing the concentration of the dissolved substance to decrease by allowing nucleation cores to form, maintaining the metastable state by adding a predetermined amount of the substance to the solvent volume containing the substance and the precipitant or allowing the solvent to evaporate until at least one crystal of a predetermined size is formed. | 06-06-2013 |